OGLE-2013-BLG-0132Lb is a Saturn-mass planet orbiting the star OGLE-2013-BLG-0132L.^[1][2] It has a measured mass of 0.26 M_J, being slightly less massive than Saturn, and is located at a distance of 3.14 astronomical units from its star.^[1] The planet was discovered in 2017, when Mróz et al. analysed a microlensing event that has been observed four years before, by the Optical Gravitational Lensing Experiment.^[2] Later, the microlensing event was observed again by Rektsini et al. in 2024.^[1] Its host star, OGLE-2013-BLG-0132, is a red dwarf that has a mass of 0.495 M_☉, and is located about 11,300 light-years away in the constellation Sagittarius.^{[1][note 1]}

Initially, OGLE-2013-BLG-0132Lb had a estimated mass of 0.29+0.16
−0.13 M_J (92.2+50.8
−41.3 M_🜨, as estimated by Mróz et al in 2017. ^[2]Then, Rektsini et al in 2020 measured the planet's mass more accurately, obtaining a mass of 0.26 M_J.^[1] The projected separation of the planet, i.e the minimum distance from its star, is 3.14 astronomical units (470,000,000 km).^[1]

The host star of OGLE-2013-BLG-0132Lb is OGLE-2013-BLG-0132L. It is a red dwarf star, based on its mass of 0.495±0.054 M_☉.^[1] The star and its planet are located in the constellation Sagittarius,^[b] more precisely in the astronomical coordinates 17^h 59^m 03.51^s, −28° 25′ 15.7″, at a distance of 11,340±1,170 ly (3,480±360 pc) from Earth.^[1]

The microlensing event was first observed in January discovered in March 3, 2013 by the OGLE, and independently found by MOA in March 13, 2023, recieving the designation MOA-2013-BLG-148.

Wolf 327 b is a confirmed extrasolar planet, an exoplanet orbiting the red dwarf Wolf 327, a red dwarf located 93 light-years away in the constellation Leo Minor.^[1] It is a super-Earth, a type of exoplanet larger than Earth, having a mass of 2.53 M_E and a radius of 1.23 R_🜨.^[1] It is also an ultra-short period planet, completing one orbit around its star every 13 hours and 18 minutes (0.573 days) in a small distance of 0.01 astronomical units (1,500,000 km) from its star.^[1] The planet is subject to planetary insolation 233 times more intense than what the Earth recieves from the Sun and has a equilibrium temperature of 996 K (723 °C).^[1]

Completing an orbit around its star every 13 hours and 18 minutes, Wolf 327 b classifies as an ultra-short period planet, a class of planets with orbital periods shorter than a day, which are quite unusual^[1]. Located 0.01 astronomical units (1,500,000 km) from its star (one hundredth of the Earth-Sun distance), the planet is exposed to insolation 233.9 times more intense than what the Earth receives from the Sun, and has an equilibrium temperature of 996 K (723 °C).

Wolf 327 b has a radius of 1.24 R_🜨 and a mass of 2.53 M_E, being classified as a super-Earth, a class of planets that are larger than Earth, but smaller than the Solar System's ice giants, Neptune and Uranus. The planet's bulk density is 7.24 g/cm³, which is 30% greater than Earth's density, suggesting a rocky composition. According to theoretical models, Wolf 327 b has a large iron core, a small rocky mantle and a negligible or non-existent atmosphere.

The radius and mass of this planet are similar to that of K2-229b.

Wolf 327 is a red dwarf located about 93 light-years from Earth, in the constellation Leo Minor. The star has a radius and mass equivalent to about 2/5 that of the Sun, a temperature of 3,542 K (3,269 °C), and a luminosity equivalent to 2.3% of the solar luminosity. With an apparent magnitude of 12.98, the star is very faint and cannot be visible to the naked eye.

TOI-1710 b is an confirmed exoplanet orbiting TOI-1710, a G-type star 264 light-years away in the constellation Cameloparadalis. It is classified as a warm super-Neptune planet, having a mass of 18.4 M_E and a temperature of 730 K (457 °C).^[1]